CN213916226U - Automatic machining equipment for camshaft support - Google Patents

Abstract

The utility model relates to an automobile parts processing field specifically is to relate to a be used for camshaft support automatic processing equipment, include: the workstation, the material loading subassembly, a transport for camshaft support in batches, the manipulator, a snatch for camshaft support, a positioning mechanism, a location for camshaft support, tilting mechanism, a 90 make the machined surface face up of camshaft support upset for positioning mechanism is last, support tight cylinder, a camshaft support for supporting tightly, the output of supporting tight cylinder still is equipped with one and supports tight board, drilling subassembly, a both ends drilling for camshaft support, drilling subassembly sets up directly over positioning mechanism, ejection of compact transmission band, set up in one side that positioning mechanism was kept away from to the manipulator, the utility model provides an unable batch processing of traditional camshaft support, and the unsafe location problem of processing, the efficiency of camshaft support processing has been improved, and the precision of camshaft support processing has been guaranteed.

Description

Automatic machining equipment for camshaft support

Technical Field

The utility model relates to an automobile parts processing field specifically relates to a be used for camshaft support automatic processing equipment.

Background

The camshaft is a part in an automobile piston engine, is specially responsible for driving a valve to open and close on time, ensures that the engine sucks fresh combustible mixed gas for a cylinder at regular time in work, discharges the combusted waste gas out of the cylinder in time, and needs to be supported by a camshaft support in actual installation.

Camshaft major structure includes the main shaft, be equipped with the cam of a plurality of different angles on the main shaft, it has a plurality of oilholes to distribute on the main shaft radial direction, be equipped with the through-hole with the corresponding intercommunication of every oilhole on the terminal surface of main shaft, current camshaft radial hole drilling equipment is when processing camshaft oilhole (radial hole promptly), the clamping mode that a clamp is pushed from both sides to the general adoption, specifically be camshaft head end centre bore top tight, the camshaft tail end adopts three-jaw chuck to press from both sides tightly, there is not mistake proofing structure, the tight in-process of location clamp, camshaft tail end face and head end face location are uncontrolled state, only rely on three-jaw chuck to guarantee to press from both sides tightly, when boring radial hole, dislocation appears around easy, the aversion phenomenon appears in the camshaft, lead to the product unqualified, therefore, need design one kind can pinpoint camshaft support carry out the equipment that the drilling was processed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the automatic processing equipment for the camshaft support is provided, and the technical scheme solves the problems that the traditional camshaft support cannot be processed in batches and the processing and positioning are inaccurate.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

an automatic processing device for a camshaft support, comprising:

a work table;

the feeding assembly is used for conveying the cam shaft supports in batches and arranged at the top of the workbench;

the manipulator is used for grabbing the camshaft support and arranged at one end of the workbench;

the positioning mechanism is used for positioning the camshaft support and arranged beside the manipulator;

the turnover mechanism is used for turning over the cam shaft support on the positioning mechanism by 90 degrees to enable the processing surface to be upward and is arranged at the bottom of the positioning mechanism;

the tight abutting cylinder is used for abutting against the camshaft support, is arranged on one side of the positioning mechanism away from the manipulator in a horizontal state, and is also provided with an abutting plate at the output end;

the drilling assembly is used for drilling holes at two ends of the camshaft support and is arranged right above the positioning mechanism;

and the discharging transmission belt is arranged on one side of the manipulator far away from the positioning mechanism.

As a preferred solution for the automatic camshaft support machining apparatus,

the material loading subassembly includes:

the two conveying wheels are symmetrically arranged on two sides of the top of the workbench along the length direction of the workbench, and the two conveying wheels are rotatably arranged on the top of the workbench through a rotating shaft;

the conveying belt is sleeved on the two conveying wheels;

the conveying motor is fixedly arranged at the bottom of the workbench, and one conveying wheel is also driven by the conveying motor;

the anti-loosening frame is fixedly arranged at the top of the workbench in the conveying belt, and a plurality of anti-loosening wheels for preventing the conveying belt from loosening are arranged in the anti-loosening frame at equal intervals along the length direction of the belt;

the discharging mechanisms are provided with a plurality of discharging mechanisms and used for conveying the cam shaft supports in batches through the conveying belt, and each discharging mechanism is arranged on the conveying belt.

As a preferred solution for the automatic camshaft support machining apparatus,

drop feed mechanism includes:

the placing plates are arranged on the side wall of the conveying belt at equal intervals along the length direction of the conveying belt, and are fixed on the conveying belt through bolts;

the cylinders are arranged on the top of each placing plate, and the diameter of each cylinder is equal to the diameter of the inner circle of the camshaft support;

and four limiting plates are arranged for positioning the camshaft supports, and the four limiting plates are arranged at the tops of the corresponding placing plates along the circumferential direction of the corresponding cylinders.

As a preferred solution for the automatic camshaft support machining apparatus,

the positioning mechanism includes:

a processing table arranged on one side of the end part of the workbench;

the positioning column is arranged in the center of the top of the processing table, the diameter of the positioning column is equal to the diameter of the inner circle of the cam shaft support, a positioning plate is arranged on the top of the processing table around the periphery of the positioning column, and a drill hole is formed in each limiting plate;

and two corner pressing cylinders are arranged at the top of the processing table, and the two steering pressing cylinders are symmetrically arranged at the top of the processing table.

As a preferred solution for the automatic camshaft support machining apparatus,

tilting mechanism includes:

the centers of two sides of the processing table are respectively provided with a convex rod outwards, and the processing table is rotatably arranged on the hinged frame through the two convex rods;

the overturning motor is horizontally arranged at the bottom of the hinged frame, and the output end of the overturning motor is connected with a convex rod through a synchronous belt and two synchronous wheels;

the baffle is used for the processing platform to overturn for 90 degrees and accurately stop, the baffle is arranged at the bottom of the hinged frame in a vertical state, and the top of the baffle is also provided with a horizontal plate used for the processing platform to be in a horizontal state.

As a preferred solution for the automatic camshaft support machining apparatus,

the drilling assembly includes:

the hydraulic cylinder is vertically arranged at the top of a high frame body, and the output end of the hydraulic cylinder extends out towards the processing table;

the lower pressure plate is arranged on the output end of the hydraulic cylinder;

the shell is fixedly arranged at the bottom of the lower pressure plate;

the drilling motor is arranged inside the shell;

and the multi-opening drilling mechanism is used for simultaneously drilling holes at two ends between the camshafts and is arranged at the bottom of the shell.

As a preferred solution for the automatic camshaft support machining apparatus,

the multiple drilling mechanism includes:

the top shell is fixedly arranged at the bottom of the machine shell;

the bottom shell is fixedly arranged at the bottom of the top shell;

the driving gear is arranged in the center of the top of the bottom shell and is fixedly sleeved on the output end of the drilling motor;

the two driven gears are symmetrically arranged on two sides of the driving gear in a meshed mode and can also be rotatably arranged on the top of the bottom shell;

the drill bits are arranged and are respectively fixedly arranged on each driven gear, and the drilling end face of each drill bit is arranged downwards.

Compared with the prior art, the utility model beneficial effect who has is: when an operator processes a batch of camshaft supports, firstly, the operator places the batch of camshaft supports on a feeding assembly, the feeding assembly drives the batch of camshaft supports to come to a manipulator, then the manipulator grabs the camshaft supports to a positioning mechanism, the positioning mechanism positions the camshaft supports, a turnover mechanism drives the camshafts to rotate 90 degrees, two ends of the camshaft supports face a drilling assembly along with the camshaft supports, a propping cylinder further props the camshafts through propping plates, the drilling assembly simultaneously drills two ends of the camshaft supports, and finally the manipulator grabs the drilled camshaft supports to a discharge conveying belt to be sent out, so that the problems that the traditional camshaft supports cannot be processed in batches and are inaccurate in processing and positioning are solved, and the processing efficiency of the camshaft supports is improved, and the machining precision of the camshaft support is ensured.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of the feeding assembly;

FIG. 3 is a cross-sectional view of the feeding assembly;

fig. 4 is a schematic view of a partial three-dimensional structure of the present invention;

FIG. 5 is a perspective view of the drilling assembly;

fig. 6 is a cross-sectional view of the drilling assembly.

The reference numbers in the figures are: the automatic material conveying device comprises a workbench 1, a camshaft support 2, a manipulator 3, a tight abutting cylinder 4, a tight abutting plate 5, a material discharging conveying belt 6, a conveying wheel 7, a conveying belt 8, a conveying motor 9, a locking frame 10, a locking wheel 11, a placing plate 12, a cylinder 13, a limiting plate 14, a machining table 15, a positioning column 16, a positioning plate 17, a corner pressing cylinder 18, a hinged frame 19, a turnover motor 20, a synchronous belt 21, a baffle 22, a horizontal plate 23, a hydraulic cylinder 24, a pressing disc 25, a machine shell 26, a drilling motor 27, a top shell 28, a bottom shell 29, a driving gear 30, a driven gear 31 and a drill bit 32.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1 to 6, an automatic processing apparatus for a camshaft holder, comprising:

a work table 1;

the feeding assembly is used for conveying the camshaft supports 2 in batches and is arranged at the top of the workbench 1;

the manipulator 3 is used for grabbing the camshaft support 2, and the manipulator 3 is arranged at one end of the workbench 1;

the positioning mechanism is used for positioning the camshaft support 2 and arranged beside the manipulator 3;

the turnover mechanism is used for turning over the camshaft support 2 on the positioning mechanism by 90 degrees to enable the processing surface to face upwards and is arranged at the bottom of the positioning mechanism;

the tight abutting cylinder 4 is used for abutting against the camshaft support 2, the tight abutting cylinder 4 is arranged on one side of the positioning mechanism, which is far away from the mechanical arm 3, in a horizontal state, and the output end of the tight abutting cylinder 4 is also provided with a tight abutting plate 5;

the drilling assemblies are used for drilling holes at two ends of the camshaft support 2 and are arranged right above the positioning mechanism;

and the discharging transmission belt 6 is arranged on one side of the manipulator 3 far away from the positioning mechanism.

Operating personnel adds man-hour to camshaft support 2 in batches, at first, operating personnel places camshaft support 2 in batches on the material loading subassembly, the material loading subassembly drives camshaft support 2 in batches thereupon and comes to manipulator 3 department, then, manipulator 3 snatchs camshaft support 2 to positioning mechanism on, positioning mechanism fixes a position camshaft support 2, tilting mechanism drives thereupon and rotates 90 between the camshaft, camshaft support 2's both ends face the drilling subassembly thereupon, it further supports tightly with the camshaft through supporting tight board 5 to support tight cylinder 4, the drilling subassembly carries out the simultaneous drilling to camshaft support 2's both ends thereupon, finally, camshaft support 2 that manipulator 3 will bore the completion snatchs and is sent out on ejection of compact transmission band 6.

The material loading subassembly includes:

the two conveying wheels 7 are symmetrically arranged on two sides of the top of the workbench 1 along the length direction of the workbench 1, and the two conveying wheels 7 are rotatably arranged on the top of the workbench 1 through a rotating shaft;

the conveying belt 8 is sleeved on the two conveying wheels 7;

the conveying motor 9 is fixedly arranged at the bottom of the workbench 1, and one conveying wheel 7 is also driven by the conveying motor 9;

the anti-loosening frame 10 is fixedly arranged at the top of the workbench 1 in the conveying belt 8, and a plurality of anti-loosening wheels 11 for preventing the conveying belt 8 from loosening are arranged in the anti-loosening frame 10 at equal intervals along the length direction of the belt;

drop feed mechanism is provided with a plurality of for the transport of cam shaft support 2 through conveyer belt 8 in batches, every drop feed mechanism all sets up on conveyer belt 8.

Operating personnel adds man-hour to camshaft support 2 in batches, and operating personnel places camshaft support 2 in batches on every drop feed mechanism, and two delivery wheel 7 of conveying motor 9 drive rotate, and conveyer belt 8 drives along with two delivery wheel 7 thereupon, and a plurality of drop feed mechanism drives every camshaft support 2 thereupon and removes, and during the drive of conveyer belt 8, a plurality of locking wheel 11 on the locking frame 10 supports conveyer belt 8.

Drop feed mechanism includes:

the placing plates 12 are arranged on the side wall of the conveying belt 8 at equal intervals along the length direction of the conveying belt 8, and the placing plates 12 are fixed on the conveying belt 8 through bolts;

a cylinder 13 provided on the top of each of the placement plates 12, the diameter of each cylinder 13 being equal to the diameter of the inner circle of the camshaft support 2;

four stopper plates 14 are provided for positioning the camshaft holder 2, and the four stopper plates 14 are provided on the top of the respective placing plates 12 along the circumferential direction of the respective cylinders 13.

When an operator places the camshaft support 2 on the discharging mechanism, the camshaft is sleeved on the cylinder 13 on the placing plate 12, the periphery of the camshaft support 2 is limited by each limiting plate 14, and the camshaft support 2 is then brought to the grabbing end of the mechanical arm 3.

The positioning mechanism includes:

a processing table 15 provided on one side of an end portion of the table 1;

the positioning column 16 is arranged in the center of the top of the processing table 15, the diameter of the positioning column 16 is equal to the diameter of the inner circle of the camshaft support 2, the positioning plates 17 are arranged on the top of the processing table 15 around the positioning column 16, and a drill hole is formed in each limiting plate 14;

and two corner pressing cylinders 18 are arranged, and the two steering pressing cylinders are symmetrically arranged at the top of the processing table 15.

When the manipulator 3 grabs the camshaft support 2 and places the camshaft support on the processing table 15, the camshaft support 2 is sleeved on the positioning column 16, the periphery of the camshaft support 2 is limited by the positioning plate 17, and the two corner pressing cylinders 18 press the camshaft support 2 onto the processing table 15.

Tilting mechanism includes:

the center of two sides of the processing table 15 is provided with a convex rod outwards, and the processing table 15 is rotatably arranged on the hinge frame 19 through the two convex rods;

the overturning motor 20 is horizontally arranged at the bottom of the hinge frame 19, and the output end of the overturning motor 20 is connected with a convex rod through a synchronous belt 21 and two synchronous wheels;

the baffle 22 is used for accurately stopping the machining table 15 after being turned for 90 degrees, the baffle 22 is arranged at the bottom of the hinge frame 19 in a vertical state, and the top of the baffle 22 is also provided with a horizontal plate 23 used for enabling the machining table 15 to be in a horizontal state.

When the camshaft bracket 2 is turned by 90 degrees, the turning motor 20 drives the processing table 15 to rotate on the hinge bracket 19 through the synchronous belt 21 and the two synchronous wheels, the processing table 15 is turned by 90 degrees and touches the baffle plate 22 to stop, and the horizontal plate 23 is horizontal for the processing table 15 to facilitate the positioning of the camshaft bracket 2.

The drilling assembly includes:

the hydraulic cylinder 24 is vertically arranged at the top of a high frame body, and the output end of the hydraulic cylinder 24 extends out towards the processing table 15;

a lower platen 25 provided on an output end of the hydraulic cylinder 24;

a casing 26 fixedly disposed at the bottom of the lower platen 25;

a drilling motor 27 disposed inside the casing 26;

and a multi-hole drilling mechanism for simultaneously drilling holes at two ends between the camshafts, wherein the multi-hole drilling mechanism is arranged at the bottom of the machine shell 26.

When the two end faces of the camshaft support 2 face upward, the hydraulic cylinder 24 drives the multi-hole drilling mechanism to move towards the camshaft support 2 through the lower pressure plate 25, and the drilling motor 27 drives the multi-hole drilling mechanism.

The multiple drilling mechanism includes:

a top case 28 fixedly disposed at the bottom of the housing 26;

a bottom shell 29 fixedly disposed at the bottom of the top shell 28;

the driving gear 30 is arranged at the center of the top of the bottom shell 29, and the driving gear 30 is also fixedly sleeved on the output end of the drilling motor 27;

two driven gears 31, wherein the two driven gears 31 are symmetrically and meshed with each other and are arranged on two sides of the driving gear 30, and the two driven gears 31 can also be rotatably arranged on the top of the bottom shell 29;

two drills 32 are provided, the two drills 32 are respectively fixedly arranged on each driven gear 31, and the drilling end face of each drill 32 is arranged downwards.

When drilling motor 27 drive driving gear 30 rotated, because intermeshing between two driven gear 31 and the driving gear 30, consequently, two driven gear 31 rotate thereupon and drive corresponding drill bit 32 and rotate, and two drill bits 32 are drilled to the both ends of camshaft support 2 through the promotion of pneumatic cylinder 24 thereupon, and finally, camshaft support 2 that the manipulator 3 will bore the completion snatchs to being sent out on ejection of compact transmission band 6.

The utility model discloses a theory of operation:

this equipment/device/method realizes through following step the utility model discloses a function, and then solved the utility model provides a technical problem:

step one, operating personnel adds man-hour to camshaft support 2 in batches, operating personnel places camshaft support 2 in batches on every places board 12, camshaft sleeve locates on placing the cylinder 13 on board 12, camshaft support 2 carries on spacingly all around through every limiting plate 14, two delivery wheel 7 rotations of conveying motor 9 drive, conveyer belt 8 is along with two delivery wheel 7 drives thereupon, a plurality of drop feed mechanism drives every camshaft support 2 thereupon and removes, during the drive of conveyer belt 8, a plurality of locking wheel 11 on the locking frame 10 supports conveyer belt 8, camshaft support 2 is taken to manipulator 3 and snatchs the end thereupon.

Step two, when the manipulator 3 grabs the camshaft support 2 and places the camshaft support 2 on the processing table 15, the camshaft support 2 is sleeved on the positioning column 16, the periphery of the camshaft support 2 is limited by the positioning plate 17, the two corner pressing cylinders 18 press the camshaft support 2 onto the processing table 15, when the camshaft support 2 turns over for 90 degrees, the turning motor 20 drives the processing table 15 to rotate on the hinge frame 19 through the synchronous belt 21 and the two synchronous belts, the processing table 15 turns over for 90 degrees and touches the baffle plate 22 to stop, and the horizontal plate 23 is convenient for positioning the camshaft support 2 so that the processing table 15 is in a horizontal state.

Step three, when the two end faces of the camshaft support 2 face upwards, the hydraulic cylinder 24 drives the multi-opening drilling mechanism to move towards the camshaft support 2 through the lower pressing plate 25, when the drilling motor 27 drives the driving gear 30 to rotate, because the two driven gears 31 are meshed with the driving gear 30, the two driven gears 31 rotate along with the driving gear to drive the corresponding drill bits 32 to rotate, the two drill bits 32 drill the two ends of the camshaft support 2 through the pushing of the hydraulic cylinder 24, and finally, the mechanical arm 3 grabs the drilled camshaft support 2 onto the discharging conveying belt 6 and sends the drilled camshaft support out.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the principles of the present invention may be applied to any other embodiment without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. An automatic processing device for a camshaft support, characterized by comprising:

a table (1);

the feeding assembly is used for conveying the camshaft supports (2) in batches and arranged at the top of the workbench (1);

the manipulator (3) is used for grabbing the camshaft support (2), and the manipulator (3) is arranged at one end of the workbench (1);

the positioning mechanism is used for positioning the camshaft support (2) and arranged beside the manipulator (3);

the turnover mechanism is used for turning the cam shaft support (2) on the positioning mechanism by 90 degrees to enable the processing surface to be upward and is arranged at the bottom of the positioning mechanism;

the tight-supporting cylinder (4) is used for tightly supporting the camshaft support (2), the tight-supporting cylinder (4) is horizontally arranged on one side of the positioning mechanism, which is far away from the manipulator (3), and the output end of the tight-supporting cylinder (4) is also provided with a tight-supporting plate (5);

the drilling assembly is used for drilling holes at two ends of the camshaft support (2) and is arranged right above the positioning mechanism;

and the discharging transmission belt (6) is arranged on one side of the manipulator (3) far away from the positioning mechanism.

2. The automatic processing equipment for camshaft supports according to claim 1,

the material loading subassembly includes:

the two conveying wheels (7) are symmetrically arranged on two sides of the top of the workbench (1) along the length direction of the workbench (1), and the two conveying wheels (7) are rotatably arranged on the top of the workbench (1) through a rotating shaft;

the conveying belt (8) is sleeved on the two conveying wheels (7);

the conveying motor (9) is fixedly arranged at the bottom of the workbench (1), and one conveying wheel (7) is also driven by the conveying motor (9);

the anti-loosening frame (10) is fixedly arranged at the top of the workbench (1) in the conveying belt (8), and a plurality of anti-loosening wheels (11) for preventing the conveying belt (8) from loosening are arranged in the anti-loosening frame (10) at equal intervals along the length direction of the belt;

the discharging mechanisms are provided with a plurality of discharging mechanisms, and are used for conveying the cam shaft supports (2) in batches through the conveying belt (8), and each discharging mechanism is arranged on the conveying belt (8).

3. The automatic processing equipment for camshaft supports according to claim 2,

drop feed mechanism includes:

the placing plates (12) are arranged on the side wall of the conveying belt (8) at equal intervals along the length direction of the conveying belt (8), and the placing plates (12) are fixed on the conveying belt (8) through bolts;

a cylinder (13) provided on the top of each of the placement plates (12), the diameter of each cylinder (13) being equal to the diameter of the inner circle of the camshaft support (2);

and four limiting plates (14) which are used for positioning the camshaft support (2), wherein the four limiting plates (14) are arranged at the top of the corresponding placing plate (12) along the circumferential direction of the corresponding cylinder (13).

4. The automatic processing equipment for camshaft supports according to claim 2,

the positioning mechanism includes:

a processing table (15) arranged on one side of the end part of the workbench (1);

the positioning column (16) is arranged in the center of the top of the machining table (15), the diameter of the positioning column (16) is equal to the diameter of the inner circle of the camshaft support (2), the positioning plates (17) are arranged on the top of the machining table (15) around the periphery of the positioning column (16), and a drill opening is formed in each limiting plate (14);

and two corner pressing cylinders (18) are arranged, and the two steering pressing cylinders are symmetrically arranged at the top of the processing table (15).

5. The automatic processing equipment for camshaft supports according to claim 4,

tilting mechanism includes:

the center of two sides of the processing table (15) is provided with a convex rod outwards, and the processing table (15) is rotatably arranged on the hinged frame (19) through the two convex rods;

the overturning motor (20) is horizontally arranged at the bottom of the hinged frame (19), and the output end of the overturning motor (20) is connected with a convex rod through a synchronous belt (21) and two synchronous wheels;

the baffle (22) is used for accurately stopping the machining table (15) after being turned for 90 degrees, the baffle (22) is arranged at the bottom of the hinged frame (19) in a vertical state, and the top of the baffle (22) is also provided with a horizontal plate (23) which is used for the machining table (15) to be in a horizontal state.

6. The automatic processing equipment for camshaft supports according to claim 5,

the drilling assembly includes:

the hydraulic cylinder (24) is vertically arranged at the top of a high frame body, and the output end of the hydraulic cylinder (24) extends out towards the processing table (15);

a lower platen (25) provided on the output end of the hydraulic cylinder (24);

a casing (26) fixedly arranged at the bottom of the lower pressure plate (25);

a drilling motor (27) arranged inside the casing (26);

the multi-opening drilling mechanism is used for simultaneously drilling holes at two ends between the camshafts and is arranged at the bottom of the machine shell (26).

7. The automatic processing equipment for camshaft supports according to claim 6,

the multiple drilling mechanism includes:

a top case (28) fixedly arranged at the bottom of the shell (26);

a bottom shell (29) fixedly arranged at the bottom of the top shell (28);

the driving gear (30) is arranged at the center of the top of the bottom shell (29), and the driving gear (30) is also fixedly sleeved on the output end of the drilling motor (27);

two driven gears (31) are arranged, the two driven gears (31) are symmetrically and meshed with each other and are arranged on two sides of the driving gear (30), and the two driven gears (31) can also be rotatably arranged on the top of the bottom shell (29);

two drill bits (32) are arranged, the two drill bits (32) are fixedly arranged on each driven gear (31) respectively, and the drilling end face of each drill bit (32) is arranged downwards.

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